CN203409176U

CN203409176U - Riveting die and riveting equipment with same

Info

Publication number: CN203409176U
Application number: CN201320509961.6U
Authority: CN
Inventors: 朱振华; 蓝健城; 丁惠文; 龙江; 王文斌; 侯瀚森
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2013-08-20
Filing date: 2013-08-20
Publication date: 2014-01-29
Anticipated expiration: 2023-08-20

Abstract

The utility model provides a riveting die and have its riveting equipment. The riveting mould includes first mould and cooperates with first mould in order to press the riveting nut to the second mould of waiting to rivet the part, and first mould can set up for second mould reciprocating motion, and the riveting mould still includes: the clamping mechanism is used for clamping the riveting nut; and the automatic feeding device is used for conveying the riveting nut to the clamping mechanism. According to the utility model discloses, realized autoloading, reduced the time consumption among the pay-off process, improved production efficiency, reduced the cost of labor.

Description

Riveting die set and there is its riveting equipment

Technical field

The utility model relates to panel beating technical field, more specifically, relates to a kind of riveting die set and has its riveting equipment.

Background technology

In prior art, panel beating riveted joint assembly is mainly by manually completing, first manually hexagonal riveting nut is put into the hexagon ring of sheet metal component, then manually sheet metal component is put into riveting die set and press, in this process, riveting nut is put into sheet metal component needs many people's operations, just productive temp can be caught up with, such as a simple valve rack of riveted joint, six riveting nuts need to be put into, at least need 3 people to remove to put separately riveting nut, just can catch up with the riveted joint speed of riveting die set.The mode of above-mentioned manual rivet causes labor intensity of operating staff large, and riveted joint inefficiency, further causes cost of labor to continue to increase.

Utility model content

The riveting equipment that the utility model object is to provide a kind of riveting die set and has it, has realized self-feeding, reduces the time loss in feeding process, enhances productivity, and reduces cost of labor.

To achieve these goals, according to an aspect of the present utility model, a kind of riveting die set is provided, comprise the first mould and coordinate riveting nut to be pressed to the second mould of part to be riveted with the first mould, the first mould reciprocally moves and arranges with respect to the second mould, riveting die set also comprises: clamping device, for clamping riveting nut; Automatic feeding, automatic feeding is for being delivered to clamping device by riveting nut.

Further, clamping device comprises: the first clamping device, comprises the first clamping part; The second clamping device, comprises the second clamping part; The first clamping device and the second clamping device have riveting nut are held on to the mated condition of clip position and the cooperation disarm state of unclamping riveting nut.

Further, the first clamping part comprises the first clamping surface, and the second clamping part comprises the second clamping surface, in mated condition, between the first clamping surface and the second clamping surface, has the first distance; Coordinating disarm state, between the first clamping surface and the second clamping surface, there is the second distance that is greater than the first distance.

Further, the first clamping device also has the first chute, and automatic feeding is delivered to clip position by the first chute by riveting nut.

Further, automatic feeding comprises feeding portion, and feeding portion comprises second chute corresponding with the first chute, and riveting nut is delivered to the first chute by the second chute.

Further, feeding portion also comprises the 3rd chute being communicated with the second chute, and the first clamping device also comprises the 4th chute being communicated with the first chute, and the riveting nut in the second chute is delivered to the first chute by the 3rd chute and the 4th chute.

Further, automatic feeding also comprises and turns materials device, turning materials device comprises slide mass and drives with slide mass the first driving mechanism being connected, slide mass and the 3rd chute and the 4th chute are slidably matched respectively, slide mass has holding tank, riveting nut enters holding tank by the second chute, and the first driving mechanism drives slide mass to slide along the 3rd chute and the 4th chute, thereby riveting nut is delivered to the first chute.

Further, the 3rd chute is connected and is located on the same line with the 4th chute.

Further, automatic feeding also comprises discharge mechanism, and discharge mechanism receives and arranges riveting nut and riveting nut is delivered to the second chute.

Further, the first clamping part also comprises push rod, push rod has the surface of propelling movement, push rod along the direction stretching motion of the first chute riveting nut is pushed to clip position by pushing surface, wherein, push at least partly the part that surface forms the first clamping surface or forms the first clamping surface.

Further, the first clamping device also comprises the second driving mechanism, and the second driving mechanism drives and is connected to drive push rod stretching motion with push rod.

Further, the first clamping device comprise a plurality of the first clamping parts and with a plurality of the first clamping parts a plurality of the first chutes one to one, the second clamping device comprises and a plurality of the first clamping parts a plurality of the second clamping parts one to one.

Further, clamping device is arranged on the first mould and follows the first mould and move along the moving direction of the first mould, and the first clamping device be flexibly connected with respect to the first mould with at least one in the second clamping device so that the first clamping part and the second clamping part in mated condition with coordinate between disarm state and switch.

Further, the first clamping device is fixedly connected with the first mould, the second clamping device is flexibly connected with the first mould, the second clamping device comprises the first drive surfaces, the second mould comprises the second drive surfaces, the first mould is in the time of the second mould motion, and the first drive surfaces and the second drive surfaces are slidably matched so that the first clamping part and the second clamping part switch to cooperation disarm state from mated condition.

Further, the first drive surfaces comprises the through hole being arranged on the second clamping device; The second mould comprises the guide rod coordinating with through hole, and the second drive surfaces comprises the driving inclined-plane that is arranged at guide rod top.

Further, clamping device also comprises guider, and guider provides motion path for the second clamping device.

Further, clamping device also comprises resetting means, and resetting means drives and is connected so that the first clamping part and the second clamping part switch to mated condition from cooperation disarm state with the second clamping device.

Further, resetting means comprises spring.

Further, the first mould also comprises pilot pin, and the second mould also comprises the correcting hole coordinating with pilot pin.

According to another aspect of the present utility model, a kind of riveting equipment is provided, comprise riveting die set, this riveting die set is above-mentioned riveting die set.

According to riveting die set of the present utility model and there is its riveting equipment, there is the first mould and coordinate riveting nut to be pressed to the second mould of part to be riveted with the first mould, the first mould reciprocally moves and arranges with respect to the second mould, and because riveting die set also comprises for clamping clamping device and the automatic feeding of riveting nut, by automatic feeding, riveting nut is delivered to clamping device, therefore can realize self-feeding, reduce the time loss in feeding process, enhance productivity, reduce cost of labor.

Accompanying drawing explanation

The accompanying drawing that forms the application's a part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model is used for explaining the utility model, does not form improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the main TV structure schematic diagram according to the riveting die set of the utility model embodiment;

Fig. 2 is the plan structure schematic diagram according to the riveting die set of the utility model embodiment.

The specific embodiment

Describe below with reference to the accompanying drawings and in conjunction with the embodiments the utility model in detail.It should be noted that, in the situation that not conflicting, embodiment and the feature in embodiment in the application can combine mutually.

As depicted in figs. 1 and 2, the riveting die set of the utility model embodiment comprises the first mould 1, coordinates riveting nut to be pressed to the second mould 2, clamping device 3 and the automatic feeding 4 of part to be riveted with the first mould 1.Wherein, the first mould 1 reciprocally moves and arranges with respect to the second mould 2.Clamping device 3 is for clamping riveting nut; Automatic feeding 4 is for being delivered to clamping device 3 by above-mentioned riveting nut.

By above-mentioned setting, can realize self-feeding, reduce the time loss in feeding process, enhance productivity, reduce cost of labor.

As shown in Figure 2, in the present embodiment, clamping device 3 comprises the first clamping device 31 and the second clamping device 32.Wherein, the first clamping device 31 comprises the first clamping part; The second clamping device 32 comprises the second clamping part.The first clamping device 31 and the second clamping device 32 have riveting nut are held on to the mated condition of clip position and the cooperation disarm state of unclamping riveting nut.Preferably, the first clamping part comprises that the first clamping surface 151, the second clamping parts comprise the second clamping surface 152.In mated condition, between the first clamping surface 151 and the second clamping surface 152, there is the first distance.Coordinating disarm state, between the first clamping surface 151 and the second clamping surface 152, have be greater than the first distance second distance so that riveting nut in free state.

In the present embodiment, preferably, the first clamping device 31 also has the first chute 311.Automatic feeding 4 is delivered to above-mentioned clip position by the first chute 311 by riveting nut.

As shown in Figure 2, in a kind of preferred embodiment, automatic feeding 4 comprises feeding portion 41, turns materials device 42 and discharge mechanism (attached not shown).Discharge mechanism is for receiving and arranging riveting nut and riveting nut is delivered to feeding portion 41.

In the present embodiment, discharge mechanism can be vibrating disk.Vibrating disk can by be placed on its inner riveting nut in accordance with regulations sequentially-fed to feeding portion 41.Feeding portion 41 is delivered to the riveting nut from discharge mechanism the first chute 311 of the first clamping device 31.

Particularly, feeding portion 41 comprises and carries second chute 411 corresponding with the first chute 311 of riveting nut and the 3rd chute 412 being communicated with the second chute 411.The first clamping device 31 also comprises the 4th chute 312 being communicated with the first chute 311.

In the present embodiment, riveting nut is delivered to the first chute 311 by the second chute 411.Riveting nut in the second chute 411 is delivered to the first chute 311 by the 3rd chute 412 and the 4th chute 312.

Further preferably, the 3rd chute 412 is connected and is located on the same line with the 4th chute 312.Said structure design, can guarantee riveting nut smooth delivery of power to the first chute 311 in the second chute 411 of feeding portion 41, improves riveted joint efficiency.

For the riveting nut in feeding portion 41 being delivered to the first chute 311 of the first clamping device 31, in the present embodiment, be also provided with and turn materials device 42.Preferably, turning materials device 42 comprises slide mass and drives with slide mass the first driving mechanism 422 being connected.Slide mass is slidably matched with the 3rd chute 412 and the 4th chute 312 respectively.Slide mass has holding tank 421.Riveting nut enters holding tank 421 by the second chute 411, slides, thereby riveting nut is delivered to the first chute 311 as the first air cylinder driven slide mass of the first driving mechanism 422 along the 3rd chute 412 and the 4th chute 312.

In prior art, when the nut of needs riveted joints is while being a plurality of, need many people jointly riveting nut to be sent in the screw hole of part to be riveted, in this process, may occur to leak the phenomenon of sending, cause the secondary operations of part.In preferred embodiment of the present utility model, in order to improve riveted joint efficiency, be convenient to rivet a plurality of riveting nuts simultaneously, the first clamping device 31 comprise a plurality of the first clamping parts and with a plurality of the first clamping parts a plurality of the first chutes 311 one to one.The second clamping device 32 comprises and a plurality of the first clamping parts a plurality of the second clamping parts one to one.Feeding portion 41 comprises and a plurality of the first chutes 311 a plurality of the second chutes 411 one to one.

For the riveting nut in the first chute 311 is accurately delivered to above-mentioned clip position, as shown in Figure 2, in the first clamping part in the present embodiment, be also provided with along the push rod 43 of the direction stretching motion of the first chute 311.Push rod 43 has the surface of propelling movement, push rod 43 parts are arranged in the first chute 311, by pushing surface, the materials such as riveting nut that are slipped in the first chute 311 are pushed to preposition, the clip position of the clamping riveting nut that the first clamping surface 151 and the second clamping surface 152 form.Wherein, an at least part of part that pushes surface formation the first clamping surface 151 or form the first clamping surface 151 for push rod 43.Preferably, the quantity of push rod 43 equates with the quantity of the first chute 311.

In the present embodiment, the first clamping device 31 also comprises the second driving mechanism.The second driving mechanism comprises that the second cylinder 45, the second cylinders 45 are for driving push rod 43 that the riveting nut that is positioned at the first chute 311 is delivered to clip position.In embodiment of the present utility model, another effect of the second cylinder 45 is that the second cylinder 45 retracts original position to carry the work of riveting nut next time by push rod 43 when riveting nut being delivered to after above-mentioned clip position.

As shown in Figure 1, the clamping device 3 of the utility model embodiment is arranged on the first mould 1 and follows the first mould 1 and move along the moving direction of the first mould 1, and the first clamping device 31 be flexibly connected with respect to the first mould 1 with at least one in the second clamping device 32 so that the first clamping part and the second clamping part in mated condition with coordinate between disarm state and switch.

In the present embodiment, the first clamping device 31 is fixedly connected with the first mould 1, and the second clamping device 32 is flexibly connected with the first mould 1.The second clamping device 32 comprises the first drive surfaces, and the second mould 2 comprises the second drive surfaces.The first mould 1 is in the time of the second mould 2 motion, and the first drive surfaces and the second drive surfaces are slidably matched so that the first clamping part and the second clamping part switch to cooperation disarm state from mated condition.

Preferably, the first drive surfaces comprises the through hole being arranged on the second clamping device 32.The second mould 2 comprises with respect to the second mould 2 guide rod coordinating with through hole 21, the second drive surfaces that be fixedly installed and comprises the driving inclined-plane that is arranged at guide rod 21 tops.

As shown in Figure 1, in the present embodiment, clamping device 3 is also included as the guider that the second clamping device 32 provides motion path.

In order to make the first clamping part and the second clamping part from coordinating disarm state to switch to mated condition, as shown in Figure 1, in embodiment of the present utility model, clamping device 3 also comprises the resetting means being connected with the second clamping device 32 drivings.Particularly, resetting means comprises spring 13.The two ends of spring 13 are connected to the first mould 1 and guider.

Preferably, guider comprises the slide block 15 with respect to the first mould 1 removable setting.One end of slide block 15 is fixedly connected with by pin etc. with the second clamping device 32.The other end of slide block 15 is connected with spring 13.As shown in Figure 1, when relative the second mould 2 of the first mould 1 moves downward, the driving inclined-plane at guide rod 21 tops stretches in the through hole of the second clamping device 32, thereby order about slide block 15 to the left direction motion shown in Fig. 1, the second clamping device 32 is followed slide block 15 and is synchronized with the movement, because relative the first mould 1 of the first clamping device 31 does not have relative motion, now between the second clamping part of the first clamping part of the first clamping device 31 and the second clamping device 32 for coordinating disarm state, so that riveting nut falls in the hole in piece part of part to be riveted in the effect of self gravitation.

As shown in Figure 1, in embodiment of the present utility model, the first mould 1 has riveted joint punch 14.The second mould 2 has the riveted joint die 22 being equipped with riveted joint punch 14.During this arranges, the first mould 1 coordinating with the second mould 2 of die 22 coordinates that riveting nut is pressed to part to be riveted by riveted joint punch 14 with riveted joint.

For part to be riveted is accurately located, as shown in Figure 1, in embodiment of the present utility model, the first mould 1 also comprises the pilot pin 16 that is fixed on the first mould 1.The second mould 2 also comprises the correcting hole coordinating with pilot pin 16.

The riveted joint process of the utility model embodiment specifically describes as follows:

1, first there is vibratory equipment (such as vibrating disk) that prepackage material (such as hexagonal riveting nut) is within it delivered in the second chute 411 of feeding portion 41 in order;

2, riveting nut enters into the holding tank 421 of the slide mass that is positioned at the 3rd chute 412 being communicated with the second chute 411, the first driving mechanism (such as the first cylinder) drives slide mass to slide along the 3rd chute 412 and the 4th chute 312, the above-mentioned riveting nut in holding tank 421 is delivered in the first chute 311 of the first clamping device 31;

3, utilize the second cylinder 45 to promote push rod 43, simultaneously, the first end of push rod 43 contacts with hexagonal riveting nut, hexagonal riveting nut is pushed along the first chute 311 directions, until hexagonal riveting nut is transported to the first clamping surface 151 of the first clamping device 31;

4, the second clamping surface 152 cooperations of the first clamping surface 151 respectively with the second clamping devices 32 of the propelling movement of push rod 43 surface, the first clamping device 31 are clamped in clip position by hexagonal riveting nut, complete the location of hexagonal riveting nut;

5, after hexagonal riveting nut locates, riveting die set is started working, and the second mould 2 is motionless, and the first mould 1 when descending, first insert pilot pin 16 the correcting fabrication hole of part to be riveted and inserts in the correcting hole of the second mould 2, and part is accurately located;

6, the first mould 1 continues to move downward, when hexagonal riveting nut inserts the hexagonal hole 3～4mm of part to be riveted, guide rod 21 on the second mould 2 utilizes and drives inclined-plane to force the second clamping device 32 to a lateral movement, make hexagonal riveting nut become free state from the clamped condition of the second clamping device 32 and the first clamping device 31, under the effect of gravity, hexagonal riveting nut enters in hexagonal hole completely, then utilizes above-mentioned the second cylinder that push rod 43 is retracted to original position;

7, the first mould 1 continues to move downward, and coordinating of die 22 hexagonal riveting nut is riveted in hexagonal hole with riveted joint by riveted joint punch 14, completes the riveting work of hexagonal riveting nut on part.

From above description, can find out, embodiment of the present utility model has realized following technique effect: have the first mould and coordinate riveting nut to be pressed to the second mould of part to be riveted with the first mould, the first mould reciprocally moves and arranges with respect to the second mould, and because riveting die set also comprises for clamping clamping chamber and the automatic feeding of riveting nut, by automatic feeding, riveting nut is delivered to clamping chamber, therefore can realize self-feeding, reduce the time loss in feeding process, enhance productivity, reduce cost of labor.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims

1. a riveting die set, comprise the first mould (1) and coordinate riveting nut to be pressed to second mould (2) of part to be riveted with described the first mould (1), described the first mould (1) reciprocally moves and arranges with respect to described the second mould (2), it is characterized in that, described riveting die set also comprises:

Clamping device (3), for clamping described riveting nut;

Automatic feeding (4), described automatic feeding (4) is for being delivered to described riveting nut described clamping device (3).

2. riveting die set according to claim 1, is characterized in that, described clamping device (3) comprising:

The first clamping device (31), comprises the first clamping part;

The second clamping device (32), comprises the second clamping part;

Described the first clamping device (31) and described the second clamping device (32) have described riveting nut are held on to the mated condition of clip position and the cooperation disarm state of unclamping described riveting nut.

3. riveting die set according to claim 2, it is characterized in that, described the first clamping part comprises the first clamping surface (151), described the second clamping part comprises the second clamping surface (152), in described mated condition, between described the first clamping surface (151) and described the second clamping surface (152), there is the first distance; In described cooperation disarm state, between described the first clamping surface (151) and described the second clamping surface (152), there is the second distance that is greater than described the first distance.

4. riveting die set according to claim 3, it is characterized in that, described the first clamping device (31) also has the first chute (311), and described automatic feeding (4) is delivered to described clip position by described the first chute (311) by described riveting nut.

5. riveting die set according to claim 4, it is characterized in that, described automatic feeding (4) comprises feeding portion (41), described feeding portion (41) comprises second chute (411) corresponding with described the first chute (311), and described riveting nut is delivered to described the first chute (311) by described the second chute (411).

6. riveting die set according to claim 5, it is characterized in that, described feeding portion (41) also comprises the 3rd chute (412) being communicated with described the second chute (411), described the first clamping device (31) also comprises the 4th chute (312) being communicated with described the first chute (311), and the riveting nut in described the second chute (411) is delivered to described the first chute (311) by described the 3rd chute (412) and described the 4th chute (312).

7. riveting die set according to claim 6, it is characterized in that, described automatic feeding (4) also comprises and turns materials device (42), the described materials device (42) that turns comprises slide mass and drives with described slide mass the first driving mechanism (422) being connected, described slide mass and described the 3rd chute (412) and described the 4th chute (312) are slidably matched respectively, described slide mass has holding tank (421), described riveting nut enters described holding tank (421) by described the second chute (411), described the first driving mechanism (422) drives described slide mass to slide along described the 3rd chute (412) and described the 4th chute (312), thereby described riveting nut is delivered to described the first chute (311).

8. riveting die set according to claim 6, is characterized in that, described the 3rd chute (412) is connected and is located on the same line with described the 4th chute (312).

9. riveting die set according to claim 5, is characterized in that, described automatic feeding (4) also comprises discharge mechanism, and described discharge mechanism receives and arranges described riveting nut and described riveting nut is delivered to described the second chute (411).

10. riveting die set according to claim 4, it is characterized in that, described the first clamping part also comprises push rod (43), described push rod (43) has the surface of propelling movement, described push rod (43) along the direction stretching motion of described the first chute (311) described riveting nut is pushed to described clip position by described propelling movement surface, wherein, at least part of described part that surface forms described the first clamping surface (151) or forms described the first clamping surface (151) that pushes.

11. riveting die sets according to claim 10, is characterized in that, described the first clamping device (31) also comprises the second driving mechanism, and described the second driving mechanism drives and is connected to drive described push rod (43) stretching motion with described push rod (43).

12. riveting die sets according to claim 4, it is characterized in that, described the first clamping device (31) comprise a plurality of described the first clamping parts and with described a plurality of the first clamping parts a plurality of described the first chutes (311) one to one, described the second clamping device (32) comprises and described a plurality of the first clamping parts a plurality of described the second clamping parts one to one.

13. riveting die sets according to claim 2, it is characterized in that, described clamping device (3) is arranged at described the first mould (1) and goes up and follow described the first mould (1) and move along the moving direction of described the first mould (1), and described the first clamping device (31) is flexibly connected with respect to described the first mould (1) so that described the first clamping part and described the second clamping part switch between described mated condition and described cooperation disarm state with at least one in described the second clamping device (32).

14. riveting die sets according to claim 13, it is characterized in that, described the first clamping device (31) is fixedly connected with described the first mould (1), described the second clamping device (32) is flexibly connected with described the first mould (1), described the second clamping device (32) comprises the first drive surfaces, described the second mould (2) comprises the second drive surfaces, described the first mould (1) is when described the second mould (2) moves, described the first drive surfaces and described the second drive surfaces are slidably matched so that described the first clamping part and described the second clamping part switch to described cooperation disarm state from described mated condition.

15. riveting die sets according to claim 14, is characterized in that, described the first drive surfaces comprises the through hole being arranged on described the second clamping device (32); Described the second mould (2) comprises the guide rod (21) coordinating with described through hole, and described the second drive surfaces comprises the driving inclined-plane that is arranged at described guide rod (21) top.

16. riveting die sets according to claim 14, is characterized in that, described clamping device (3) also comprises guider, and described guider is that described the second clamping device (32) provides motion path.

17. riveting die sets according to claim 14, it is characterized in that, described clamping device (3) also comprises resetting means, and described resetting means drives and is connected so that described the first clamping part and described the second clamping part switch to described mated condition from described cooperation disarm state with described the second clamping device (32).

18. riveting die sets according to claim 17, is characterized in that, described resetting means comprises spring (13).

19. according to the riveting die set described in any one in claim 1 to 18, it is characterized in that, described the first mould (1) also comprises pilot pin (16), and described the second mould (2) also comprises the correcting hole coordinating with described pilot pin (16).

20. 1 kinds of riveting equipments, comprise riveting die set, it is characterized in that, described riveting die set is according to the riveting die set described in any one in claim 1 to 19.